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/data/refman/pasoursint/CMSSW_4_4_5_patch3/src/EventFilter/StorageManager/src/ConsumerMonitorCollection.cc

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00001 // $Id: ConsumerMonitorCollection.cc,v 1.12 2011/03/07 15:31:32 mommsen Exp $
00003 
00004 #include "EventFilter/StorageManager/interface/ConsumerMonitorCollection.h"
00005 #include "EventFilter/StorageManager/interface/QueueID.h"
00006 #include "EventFilter/StorageManager/interface/MonitoredQuantity.h"
00007 
00008 
00009 namespace stor {
00010   
00011   ConsumerMonitorCollection::ConsumerMonitorCollection
00012   (
00013     const utils::Duration_t& updateInterval,
00014     const utils::Duration_t& recentDuration
00015   ):
00016   MonitorCollection(updateInterval),
00017   updateInterval_(updateInterval),
00018   recentDuration_(recentDuration),
00019   totalQueuedMQ_(updateInterval, recentDuration),
00020   totalDroppedMQ_(updateInterval, recentDuration),
00021   totalServedMQ_(updateInterval, recentDuration)
00022   {}
00023   
00024   
00025   void ConsumerMonitorCollection::addQueuedEventSample
00026   (
00027     const QueueID& qid,
00028     const unsigned int& data_size
00029   )
00030   {
00031     boost::mutex::scoped_lock l( mutex_ );
00032     addEventSampleToMap(qid, data_size, qmap_);
00033     totalQueuedMQ_.addSample(data_size);
00034   }
00035   
00036   
00037   void ConsumerMonitorCollection::addDroppedEvents
00038   (
00039     const QueueID& qid,
00040     const size_t& count
00041   )
00042   {
00043     boost::mutex::scoped_lock l( mutex_ );
00044     addEventSampleToMap(qid, count, dmap_);
00045     totalDroppedMQ_.addSample(count);
00046   }
00047   
00048   
00049   void ConsumerMonitorCollection::addServedEventSample
00050   (
00051     const QueueID& qid,
00052     const unsigned int& data_size
00053   )
00054   {
00055     boost::mutex::scoped_lock l( mutex_ );
00056     addEventSampleToMap(qid, data_size, smap_);
00057     totalServedMQ_.addSample(data_size);
00058   }
00059   
00060   
00061   void ConsumerMonitorCollection::addEventSampleToMap
00062   (
00063     const QueueID& qid,
00064     const unsigned int& data_size,
00065     ConsStatMap& map
00066   )
00067   {
00068     ConsStatMap::iterator pos = map.lower_bound(qid);
00069     
00070     // 05-Oct-2009, KAB - added a test of whether qid appears before pos->first
00071     // in the map sort order.  Since lower_bound can return a non-end iterator
00072     // even when qid is not in the map, we need to complete the test of whether
00073     // qid is in the map.  (Another way to look at this is we need to implement
00074     // the full test described in the efficientAddOrUpdates pattern suggested
00075     // by Item 24 of 'Effective STL' by Scott Meyers.)
00076     if (pos == map.end() || (map.key_comp()(qid, pos->first)))
00077     {
00078       // The key does not exist in the map, add it to the map
00079       // Use pos as a hint to insert, so it can avoid another lookup
00080       pos = map.insert(pos,
00081         ConsStatMap::value_type(qid, 
00082           MonitoredQuantityPtr(
00083             new MonitoredQuantity(updateInterval_, recentDuration_)
00084           )
00085         )
00086       );
00087     }
00088     
00089     pos->second->addSample( data_size );
00090   }
00091   
00092   
00093   bool ConsumerMonitorCollection::getQueued
00094   (
00095     const QueueID& qid,
00096     MonitoredQuantity::Stats& result
00097   ) const
00098   {
00099     boost::mutex::scoped_lock l( mutex_ );
00100     return getValueFromMap( qid, result, qmap_ );
00101   }
00102   
00103   
00104   bool ConsumerMonitorCollection::getServed
00105   (
00106     const QueueID& qid,
00107     MonitoredQuantity::Stats& result
00108   ) const
00109   {
00110     boost::mutex::scoped_lock l( mutex_ );
00111     return getValueFromMap( qid, result, smap_ );
00112   }
00113   
00114   
00115   bool ConsumerMonitorCollection::getDropped
00116   (
00117     const QueueID& qid,
00118     MonitoredQuantity::Stats& result
00119   ) const
00120   {
00121     boost::mutex::scoped_lock l( mutex_ );
00122     return getValueFromMap( qid, result, dmap_ );
00123   }
00124   
00125   bool ConsumerMonitorCollection::getValueFromMap
00126   (
00127     const QueueID& qid,
00128     MonitoredQuantity::Stats& result,
00129     const ConsStatMap& map
00130   ) const
00131   {
00132     ConsStatMap::const_iterator pos = map.find(qid);
00133     
00134     if (pos == map.end()) return false;
00135     
00136     pos->second->getStats( result );
00137     return true;
00138   }
00139   
00140   
00141   void ConsumerMonitorCollection::getTotalStats( TotalStats& totalStats ) const
00142   {
00143     totalQueuedMQ_.getStats(totalStats.queuedStats);
00144     totalDroppedMQ_.getStats(totalStats.droppedStats);
00145     totalServedMQ_.getStats(totalStats.servedStats);
00146   }
00147   
00148   void ConsumerMonitorCollection::resetCounters()
00149   {
00150     boost::mutex::scoped_lock l( mutex_ );
00151     for( ConsStatMap::iterator i = qmap_.begin(); i != qmap_.end(); ++i )
00152       i->second->reset();
00153     for( ConsStatMap::iterator i = smap_.begin(); i != smap_.end(); ++i )
00154       i->second->reset();
00155     for( ConsStatMap::iterator i = dmap_.begin(); i != dmap_.end(); ++i )
00156       i->second->reset();
00157     
00158     totalQueuedMQ_.reset();
00159     totalDroppedMQ_.reset();
00160     totalServedMQ_.reset();
00161   }
00162   
00163   
00164   void ConsumerMonitorCollection::do_calculateStatistics()
00165   {
00166     boost::mutex::scoped_lock l( mutex_ );
00167     for( ConsStatMap::iterator i = qmap_.begin(); i != qmap_.end(); ++i )
00168       i->second->calculateStatistics();
00169     for( ConsStatMap::iterator i = smap_.begin(); i != smap_.end(); ++i )
00170       i->second->calculateStatistics();
00171     for( ConsStatMap::iterator i = dmap_.begin(); i != dmap_.end(); ++i )
00172       i->second->calculateStatistics();
00173     
00174     totalQueuedMQ_.calculateStatistics();
00175     totalDroppedMQ_.calculateStatistics();
00176     totalServedMQ_.calculateStatistics();
00177   }
00178   
00179   
00180   void ConsumerMonitorCollection::do_reset()
00181   {
00182     boost::mutex::scoped_lock l( mutex_ );
00183     qmap_.clear();
00184     smap_.clear();
00185     dmap_.clear();
00186     
00187     totalQueuedMQ_.reset();
00188     totalDroppedMQ_.reset();
00189     totalServedMQ_.reset();
00190   }
00191 
00192 } // namespace stor
00193